Zinc is an object oriented, platform independent, framework for designing
graphical user interfaces (GUIs) for cross platform applications. Zinc is scalable
and customizable. It provides a full-featured toolkit for the creation of GUIs and
event-driven applications.
Universal Serial Bus (USB) is a communications architecture that gives a personal
computer (PC) the ability to interconnect a variety of devices using a simple four-
wire cable. The USB is actually a two-wire serial communication link that runs at
either 1.5 or 12 megabits per second (mbs). USB protocols can configure devices
at startup or when they are plugged in at run time. These devices are broken into
various device classes. Each device class defines the common behavior and
protocols for devices that serve similar functions. Some examples of USB device
classes are shown in the following table
This application report describes the use of Timer_A3 to decode RC5 and SIRC TV IR remote control signals. The decoder described in this report is interrupt-driven and operates a background function using specific features the Timer_A3. Only a small portion of the MSP430 CPU?s nonreal-time resources is used. Specific hardware bit-latching capabilities of the Timer_A3 module are used for real-time decoding of the IR data signal, independent
and asynchronous to the CPU. CPU activity and power consumption are kept to an absolute minimum level. The Timer_A3 decoder implementation also allows other tasks to occur simultaneously if required. The solutions provided are written specifically for MSP430x11x(1) and MSP430x12x derivatives, but can be adapted to any other MSP430 incorporating Timer_A3.
電視遙控器設(shè)計(jì)基於MSP430
DATA:BEGIN OF HEADDATA.
INCLUDE STRUCTURE BAPIMATHEAD.
DATA:END OF HEADDATA.
DATA:BEGIN OF PLANTDATA.
INCLUDE STRUCTURE BAPI_MARC.
DATA:END OF PLANTDATA.
DATA:BEGIN OF PLANTDATAX.
INCLUDE STRUCTURE BAPI_MARCX.
DATA:END OF PLANTDATAX.
READ TABLE XMKPF INDEX 1.
IF XMKPF-TCODE2 = MIGO_GR .
LOOP AT XMSEG.
《為Windows Vista編寫(xiě)安全的代碼》,2007年出版
Providing developers with first-hand insights into design decisions and practical advice for solving real-world security issues, this authoritative guide urges developers to write more secure code on the Vista platform to support a growing customer base.
Table of Contents
Writing Secure Code for Windows Vista
Foreword
Introduction
Chapter 1 - Code Quality
Chapter 2 - User Account Control, Tokens, and Integrity Levels
Chapter 3 - Buffer Overrun Defenses
Chapter 4 - Networking Defenses
Chapter 5 - Creating Secure and Resilient
Chapter 6 - Internet Explorer 7 Defenses
Chapter 7 - Cryptographic Enhancements
Chapter 8 - Authentication and Authorization
Chapter 9 - Miscellaneous Defenses and Security-Related Technologies
Index
List of Figures
List of Tables
List of Sidebars
JVT-S203 contains the JSVM 6 reference software. It corresponds to CVS tag “JSVM_5_12_1”.
For obtaining future versions of the software, the CVS server can be accessed using any CVS client. The server is configured to allow read access only using the parameters specified in Table 1. Write access to the JSVM software server is restricted to the JSVM software coordinators group.
